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Use of peo-pbo block copolymers in ophthalmic compositions

a technology of ophthalmology and copolymer, which is applied in the field of ophthalmology compositions, can solve the problems of high contact angle, affecting and affecting the cleaning effect of the device, so as to facilitate the cleaning of the device and enhance the wettability of the devi

Inactive Publication Date: 2011-03-10
ALCON INC
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0013]The present invention is directed to the use of block copolymers referred to as (polyoxyethylene)-(polyoxybutylene) block copolymers (“PEO-PBO”) to modify the surface properties of ophthalmic medical devices, so as to enhance the wettability of the devices, and facilitate cleaning of the devices. The PEO-PBO block copolymers described herein may be contained in various types of compositions for treating medical devices, such as wetting solutions, soaking solutions, cleaning and comfort solutions, and disinfection solutions. The present invention is particularly directed to the use of PEO-PBO copolymers in such compositions for treating contact lenses, especially SiH lenses.
[0014]The primary function of the PEO-PBO block copolymers in the compositions of the present invention is to treat the surface of a medical device, particularly an is ophthalmic device, such as a contact lens or an intraocular lens. Such treatment facilitates the wettability of the device and / or the cleaning of the device. This surface treatment has been found to be particularly effective relative to enhancing the wettability of SiH contact lenses.
[0015]The block copolymers may also be utilized to: (a) enhance the antimicrobial activity of ophthalmic compositions; (b) prevent or reduce the uptake of biocides by contact lenses; (c) stabilize tear films; (d) facilitate the removal of proteins and / or lipids from the surfaces of contact lenses; (e) prevent protein and lipid deposit formation; (f) stabilize ocular emulsions; (g) prevent or reduce uptake of biocides or drugs into contact lenses or onto container surfaces; (h) function as a drug solubilizer; (i) enhance drug penetration; (j) function as comfort and cushioning agents; and / or (k) decrease the adhesion of microbes to the surfaces of contact lenses or other medical devices. All of the above utilities for the block copolymers of the present invention depend on the block chemistry being used, i.e, the ratio of hydrophilic (PEO) to hydrophobic (PBO) segments. The copolymers are effective at low concentrations, may be instilled directly into the eye, and are compatible with antimicrobial agents utilized to preserve aqueous pharmaceutical compositions from microbial contamination and / or to disinfect contact lenses.
[0016]The present invention is based in-part on a finding that PEO-PBO block copolymers can be used to effectively modify contact lens surface properties at low concentrations. More specifically, it has been discovered that the PEO-PBO block copolymers described herein are retained on hydrophobic surfaces effectively and efficiently, thereby changing the wettability of the surfaces, as reflected in improved and superior wetting properties.
[0017]Although there may be several reasons for this change in surface chemistry using the PEO-PBO block copolymers, it is believed that by using poly(oxybutylene) as the hydrophobic block, the surface active properties are significantly different from those of surfactants currently used in lens care products, such as poloxamers and poloxamines. It has been shown that PEO-PBO block copolymers, relative to known PEO-PPO block copolymers, such as Pluronic® and / or Tetronic® block copolymers, display superiority in reducing surface tension at interfaces, pack more efficiently at interfaces, have lower critical micelle concentrations and can be produced with high purity (low polydispersity). By using a more hydrophobic block, i.e., oxy(butylene) versus oxy(propylene), a lower molecular weight block copolymer can be prepared with significant hydrophobic character. The hydrophobic character of the is oxybutylene provides improved interfacial properties. These properties lead to high rates of diffusion to an interface or substrate and greater retention / improved substantivity on hydrophobic surfaces, and allow lower concentrations to be used to achieve a desired property, compared to the concentrations required for PEO-PPO block copolymers such as the Pluronic® and Tetronic® brands of surfactants that have been extensively used in prior compositions for treating contact lenses. The above-described characteristics of the PEO-PBO block copolymers offer significant advantages over other known block copolymers.

Problems solved by technology

If the contact lens material becomes hydrophobic, the tear film may be disrupted.
The surface is hydrophobic if a drop of aqueous fluid does not spread, thereby resulting in a high contact angle.
Additionally, the presence of siloxane groups in SiH materials results in a lens surface having hydrophobic properties.
Although modifying the surface can improve biocompatibility, it has also been reported that some silicone hydrogel materials accumulate lipids over time, and that this build-up may result in a decrease in the wettability of the silicone hydrogel lens material and surface.
However, such surfactants do not wet SiH lenses efficiently.

Method used

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  • Use of peo-pbo block copolymers in ophthalmic compositions
  • Use of peo-pbo block copolymers in ophthalmic compositions
  • Use of peo-pbo block copolymers in ophthalmic compositions

Examples

Experimental program
Comparison scheme
Effect test

example 1

Contact Angle Measurements for Control Lenses: No Pre-Soaking

[0075]The contact angles for pHEMA-MAA lenses (Acuvue2®) and silicone hydrogel lenses (Acuvue Advance®, O2 Optix® and Pure Vision®, none having been exposed to a pre-soak treatment in a surfactant solution, were measured as described in this Example 1. The contact angle results are reported in Table 1 below, will hereinafter be referred to as the “Control Lens Results.”

[0076]Four different brands of contact lenses (one pHEMA-MAA lens type: Acuvue is 2®; and three silicon hydrogel lens types: Acuvue Advance®, O2 Optix® and Pure Vision®) were soaked in Unisol® saline solution overnight to remove residual packing solution contaminants, prior to measuring the contact angles. The contact angle of each lens was then measured according to the Sessile drop method, as described below, at room temperature, i.e, 23° C.±0.5. The results are presented in Table 1, below.

Sessile Drop Method

[0077]A video based contact angle measuring syst...

example 2

Amount of Tetronic® 1304 and (EO)45-(BO)14 Uptake by pHEMA-MAA (Acuvue2®) and Silicone Hydrogel (Acuvue Advance®) Lenses After a Pre-Soak in Surfactant Solutions A, B and C

[0079]All contact lenses were soaked in Unisol® saline solution overnight to remove residual packing solution contaminants. Surfactant solutions A, B and C were is prepared by dissolving each of the formulation components, as shown in Table 2 below, in water. Into a clean glass vial, one lens of each type (i.e., one Acuvue 2® one Acuvue Advance®) was taken directly from the pack and pre-soaked in 10 ml of each surfactant solution for 24 hours. The lenses were then removed from the solutions and blotted dry. The lenses were then rinsed by immersion in Unisol® saline solution (10 mL), removed from the vials, patted dry and stored in a glass vial. The uptake concentration was then measured using the dye method as reported in Ketelson et al., Colloids and Surfaces Biointerfaces, vol. 40, pages 1-9 (2005). The uptake c...

example 3

Contact Angle Measurements for Acuvue 2® (pHEMA-MAA) and Various Silicone Hydrogel Lenses After a Pre-Soak in 0.1% (EO)45-(BO)14 Solution (in Unisol®)

[0081]All contact lenses were soaked in Unisol® saline solution overnight to remove residual packing solution contaminants. The lenses were then pre-soaked for 24 hours in a 0.1% (EO)45-(BO)14 solution (in Unisol®). The contact angle of each lens was then measured according to the Sessile drop method, as described above in Example 1, at room temperature, i.e, 23° C.±0.5.

TABLE 3Contact Angle Measurement forVarious Lens Types (°)AcuvuePureCycle NumberAcuvue 2 ®Advance ®O2Optix ®Vision ®00000100002000030034041204005500440640045073304608750390

[0082]The above data demonstrate that the contact angle for all lens types decreases is relative to the control lenses (see Example 1 above). Pre-soaking the lenses in a 0.1% (EO)45-(BO)14 solution in Unisol® saline reduced the contact angles, indicating that the surfaces of all lens types were more w...

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Abstract

The use of poly(oxyethylene)-poly(oxybutylene) block copolymers in pharmaceutical compositions useful for modifying the surfaces of contact lenses and other medical devices is disclosed. The present invention is based in-part on a discovery that this class of compounds is particularly efficient in wetting hydrophobic surfaces, such as the surfaces of silicone hydrogel contact lenses and other types of ophthalmic lenses. Such compounds are also useful for cleaning purposes. The use of the compounds as surfactants in various types of compositions for treating contact lenses therefore represents a preferred embodiment of the present invention.

Description

CROSS-REFERENCE TO RELATED APPLICATION[0001]This application is a Continuation (CON) of co-pending U.S. application Ser. No. 11 / 953,654, filed Dec. 10, 2007, priority of which is claimed under 35U.S.C. §120, the contents of which are incorporated herein by reference. This application also claims priority under 35 U.S.C. §119 to U.S. Provisional Patent Application No. 60 / 869,513, filed Dec. 11, 2006, the contents of which are is incorporated herein by reference.FIELD OF THE INVENTION[0002]The present invention is directed to ophthalmic compositions containing one or more block copolymers referred to as (polyoxyethylene)-(polyoxybutylene) block copolymers (“PEO-PBO”). The invention is particularly directed to the use of PEO-PBO block copolymers as wetting and / or cleaning agents in compositions for treating contact lenses.BACKGROUND OF THE INVENTION[0003]Hydrogels are water swollen three-dimensional polymeric networks that are used in a variety of biomedical applications including drug...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): A61K31/765A61P27/02A61P31/00
CPCC11D1/008C11D3/3707C11D3/0078A61P27/02A61P31/00C11D3/37C11D7/26A61L12/08C11D1/00C11D3/00A45C11/005A61F2/1691B65D81/22
Inventor KETELSON, HOWARD ALLENMCQUEEN, NATHANIEL D.
Owner ALCON INC
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